News Release

Olympic tower construction at Teahupo’o, Tahiti could damage reef ecosystem

Peer-Reviewed Publication

University of Hawaii at Manoa

Teahupo’o, Tahiti

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The community of Teahupo’o, Tahiti, is concerned that coastal development to support the 2024 Olympic surfing event will impose harmful ecological impacts on their local coral reefs. The development is also altering and hardening the shoreline to provide new pathways to access the lagoon for boat transport to the judging tower. 

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Credit: Todd Glaser

In preparation for the 2024 Olympic surfing competition, a new judging tower is being constructed in the reef lagoon at Teahupo’o, Tahiti. Researchers from the University of Hawai‘i (UH) at Mānoa, UH Hilo, and Arizona State University and community partners in Tahiti recently published a study in Remote Sensing that assessed the potential impacts of the tower and emphasized the importance of protecting the valuable reef—both as an integral part of the ecosystem and a resource for the local community. 

“We hope the International Olympic Committee, appropriate government officials and the greater international community can see how devastating this impact will be to not only the valuable coral reef habitat, but also the local community who depend on this reef for their livelihood and well-being,” John Burns, lead author of the study, associate professor in marine science and data science at UH Hilo, and MEGA Lab member. 

Although there is an existing judging tower used by the World Surf League, the Paris 2024 Olympic organizers intend to invest approximately $5 million USD to construct a substantially larger tower to provide amenities for judges including toilets, air conditioning, and capacity for 40 people. 

The researchers teamed up with community members from Vai Ara O Teahupo’o and used 3D photogrammetry techniques to create high-resolution habitat maps of three sites that will be impacted by dredging and tower construction. The resulting mosaics were analyzed to quantify species diversity, coral colony count, coral colony size, and percent of the ocean floor covered by live coral and other living organisms. 

The resulting data show these sites support healthy and diverse coral communities that contribute to the ecological function of the larger reef system at Teahupo’o. In the 322 square meters (about the size of a tennis court) where the tower would be located, they identified the presence of 1,003 corals from 20 different species, indicating this site is a thriving coral habitat. 

“Although these organisms' value will never be fully represented through a capitalistic lens, based on U.S. valuations used by the Hawai‘i Division of Aquatic Resources, our data show the value of just the corals and algae at this small portion of the reef is estimated to be worth at least $170,000,” said Haunani Kane, co-author, assistant professor of Earth Sciences in the School of Ocean and Earth Science and Technology at UH Mānoa, and MEGA Lab member. 

In addition to an assessment of the reef where the structure will be built, the team mapped the lagoon area where the reef is being dredged to accommodate barge transport of tower materials. This dredging could directly impact 2,500 square meters of the reef (about half the size of a football field). If this were to occur, the authors report, it could cause a financial impact of at least $1.3 million by damaging the live reef habitat. 

The team’s impact estimates are conservative—only accounting for direct impacts and not including the potential financial impacts for communities who depend on these resources or the impact on the much greater lagoon area if water quality is affected. 

“With information in hand about the ecological impact and community concern, we hope construction of the tower will be reassessed and also that these maps will help to hold any future disruptors accountable,” said Cliff Kapono, co-author, assistant professor at Arizona State University and MEGA Lab member.  “There are alternatives to constructing a new tower, such as using the existing tower, which the World Surf League uses for competitions.”


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